Full TM Cup
2.5 mm cement thickness PMMA Spacer Uniform 2.5 mm cement thickness; the cement mantle is built within the outer dimension of acetabular cup. Cup O.D. 20 o lipped Prevent joint dislocation X-ray Marker Pressurizing Flange Prevent cement leakage during pressurization Horizontal & Vertical Groove Facilitate cement-implant fixation References 1. The National Joint Registry of England and Wales. 2012. www.njrcentre.org.uk 2. Howie et al. Large femoral heads decrease the incidence of dislocation after total hip arthroplasty: a randomized controlled trial. J Bone Joint Surg Am. 2012 Jun 20;94(12):1095-102. 3. Amstutz et al. Prevention and treatment of dislocation after total hip replacement using large diameter balls. Clin Orthop Relat Res. 2004 Dec;(429):108-16. 4. Exeter Contemporary flange cup surgical technique, Stryker.
Better Range of Motion, Better Satisfaction The use of larger size of femoral head is a growing trend 1. Benefits are known to reduce dislocation rate 2 and improve range of motion 3. Cup Size (mm) UOC Full XPE Cup Stryker Exeter Contemporary 4 42 26 mm *N.A. 44 26 mm 48 Improved Longevity with The Use of XPE Material United high cross-linked PE (XPE) show 89% wear reduction than traditional UHMWPE. 52 *N.A. : Size not available 40 Wear Resistance of XPE versus Traditional UHMWPE Wear (mg/million cycles) 30 20 10 89% Reduction 0 Traditional UHMWPE XPE* * Report Number: UOC-RD-TR-10012 Experience the Ease of Handling With the featured locking mechanism, the innovated cup positioner secures all sizes of implants with ease.
Surgical Procedures 1. Acetabular Reaming Hold the Cup Reamer Handle at abduction of 40-45 and anteversion of 15-20. Utilizing the smallest Cup Reamer starts acetabular reaming, then subsequent proceeding with enlarged reamer in 2 mm increment until exposure of cancellous bone. The final implant size should match with the last reamer used. (e.g., last reamer size is 52 mm, select 52 mm implant; 2.5 mm cement thickness is built within the outer dimension of acetabular cup.) 2. Cup trialing Once a proper acetabular cavity is established, place a Acetabular Cup Trial to check the fit, contact and congruency of prepared acetabulum. 3. Preparation of anchoring hole Use Straight Drill to introduce multiple small anchoring holes in acetabular wall for the enhancement of cement fixation is a recommended procedure, care must be taken not to penetrate into the pelvis. 4. Cement Introduction Proper cleaning, lavage and dry the prepared acetabulum is recommended before introduce bone cement. 5. Cup Mounting 90 Select the cup size based on the last reamer used. XPE cup is loaded with XPE Cup Positioner by pin-hole engagement. Laser mark on the plate should align with 20 lipped part of XPE cup. Hold the cup with thumb on the plate while locking the valve to secure the cup and positioner. 45 Longitudinal body axis 20º 6. Cup Insertion Attach the quick connect Alignment Tower to the cup impactor and thread the Alignment Rod into left/right screw hole of the tower. As the patient in lateral side position, make the vertical bar perpendicular to the operating table with the Alignment Rod parallel to the floor. Rotate the positioner until the alignment rod is in line with the longitudinal axis of the patient body. Then, an anatomic positioning of 45 abduction and 20 anteversion is built up. Placing the 20 lipped part in the ideal region of acetabulum and pressurizing the cup into cement until cement is polymerized. Unlock the valve to disengage the XPE Cup Positioner from the cup.
Order Information Special Order Items XPE Cemented Cup Trial & Instruments 1302-3042 1302-3844 1302-3846 1302-3248 1302-3250 1302-3652 1302-3654 1302-3656 1302-3658 1302-3660 1302-3662 Size (Outer Diameter) 42 mm 44 mm 46 mm 48 mm 50 mm 52 mm 54 mm 56 mm 58 mm 60 mm 62 mm Inner Diameter 26 mm Cup Trial 1303-2042 1306-2044 1306-2046 1306-2048 1306-2050 1306-2052 1306-2054 1306-2056 1306-2058 1306-2060 1306-2062 Φ 42 mm Φ 44 mm Φ 46 mm Φ 48 mm Φ 50 mm Φ 52 mm Φ 54 mm Φ 56 mm Φ 58 mm Φ 60 mm Φ 62 mm Cup Reamer 9203-4042 9203-4044 9203-4046 9203-4048 9203-4050 9203-4052 9203-4054 9203-4056 9203-4058 9203-4060 9203-4062 Φ 42 mm Φ 44 mm Φ 46 mm Φ 48 mm Φ 50 mm Φ 52 mm Φ 54 mm Φ 56 mm Φ 58 mm Φ 60 mm Φ 62 mm 9201-4201 Straight Drill 9206-1103 Cup Impactor 9203-1201-RA Cup Reamer Handle 9206-5102 Alignment Tower, laterl 9203-1328 XPE Cup Positioner 9206-5104 Alignment Rod
Safety Statement of United Full XPE Cup Important This Essential Product Information sheet does not include all of the information necessary for selection and use of a device. Please see full labeling for all necessary information INDICATIONS Non-inflammatory degenerative joint disease such as osteoarthritis, avascular necrosis, ankylosis, and painful hip dysplasia; Inflammatory degenerative joint disease such as rheumatoid arthritis; Correction of function deformity; Revision procedures where other treatments or devices have failed; Treatment of nonunion and femoral neck fractures of the proximal femur with head involvement that is unmanageable using other techniques. This device is a single use implant and intended for cemented use only. CONTRAINDICATIONS Any active or suspected latent infection in or about the hip joint. Any mental or neuromuscular disorder which would create an unacceptable risk of prosthesis instability, prosthesis fixation failure, or complications in postoperative care. Bone stock compromised by disease, infection or prior implantation which cannot provide adequate support and/or fixation to the prosthesis. Skeletal immaturity. Obesity. An overweight or obese patient can produce loads on the prosthesis which can lead to failure of the fixation of the device or to failure of the device itself. POSSIBLE ADVERSE EFFECT While the expected life of total hip replacement components is difficult to estimate, it is finite. These components are made of foreign materials placed within the body for the potential restoration of mobility or reduction of pain. However, due to the many biological, mechanical and physicochemical factors, which affect these devices but cannot be evaluated in vivo, the components cannot be expected to indefinitely withstand the activity level and loads of normal healthy bone. Dislocation of the hip prosthesis can occur due to inappropriate patient activity, trauma or other biomechanical considerations. Loosening of total hip components can occur. Early mechanical loosening may result from inadequate initial fixation, latent infection, premature loading of the prosthesis or trauma. Late loosening may result from trauma, infection, biological complications, including osteolysis, or mechanical problems, with the subsequent possibility of bone erosion and/or pain. Peripheral neuropathies, nerve damage, circulatory compromise and heterotopic bone formation may occur. Serious complications may be associated with any total joint replacement surgery. These complications include, but are not limited to: genitourinary disorders; gastrointestinal disorders; vascular disorders, including thrombus; bronchopulmonary disorders, including emboli; myocardial infarction or death. Acetabular pain may occur after acetabular replacement due to loosening of the implant, or after bipolar hip arthroplasty due to localized pressure associated with incongruities of fit or tissue inflammation. Intraoperative fissure, fracture, or perforation of the acetabulum can occur due to impaction of the component into the prepared acetabulum. Postoperative acetabular fracture can occur due to trauma, the presence of defects, or poor bone stock. Metal sensitivity reactions have been reported following joint replacement. Adverse effects may necessitate reoperation, revision, arthrodesis of the involved joint, Girdlestone and/or amputation of the limb. With all implant devices, asymptomatic, localized progressive bone resorption (osteolysis) may occur around the prosthetic components as a consequence of foreign-body reaction to the particulate matter of cement, metal, ultra-high molecular weight polyethylene (UHMWPE) and/or ceramic. Particulate is generated by interaction between components, as well as between components and bone, primarily through wear mechanisms of adhesion, abrasion and fatigue. Secondarily, particulate can also be generated by third-body wear. Osteolysis can lead to future complications, including loosening, necessitating the removal and replacement of prosthetic components. WARNINGS This device should only be applied by qualified and specially trained surgeons who have the corresponding knowledge and experience in the field of hip joint replacement. The surgeon should thoroughly understand all aspects of the surgical procedure and limitations of the device. Factors outside the control of UOC are not UOC s responsibility, including any modification after delivering to the hospitals and any mishandled pre-operation, intra-operation or post-operation. The operating surgeon shall be responsible for any negative effects and complications resulting from non-compliance with the user instructions, improper treatment of the material or an incorrect assessment of indications. This device is designed for single use only. Never use prosthetic components which have been used before. Surgeon must inform the patient about the relative information of this device, including its effects and the possible risks during operation, possible post-surgical complications, as well as inspect the materials biocompatibility of the products used with this device. If the product does not meet the specifications, please immediately notify the supplier, and dilate the problems that occur. If possible, please return the product to the supplier. Only unused implants taken from the original packaging may be used. Never reuse an implant again, even though it may appear undamaged. Reuse of this product will cause the risk of cross infection and unpredictable health threat. The position of the prosthesis components has a direct influence on the range of movement and thus represents a potential risk of impingement, luxation or subluxation. For cups which are too steep, surface pressure on the acetabular edge increases. This can lead to increased wear. The cup position is oriented in accordance with the safety zone described by Lewinnek. The joint may luxate with strenuous exercise, or subluxate through the impingement of implant components or soft tissues. The inclination of the cups should not significantly exceed or fall below a value of 40-45. The anteversion of the cups should not significantly exceed or fall below a value of 10-20. Outside this range there are restrictions in movement which can lead to subluxations and/or dislocations of the head from the cup. Bearing areas must always be clean and free of debris prior to assembly. Return all packages with flaws in the sterile barrier to the supplier. Do not resterilize. UOC strongly advises against the use of another manufacturer's femoral component with any UOC acetabular cup component. This device may only be combined with prosthetic components released by UOC for use with this device. Any such use will negate the responsibility of UOC for the performance of the resulting mixed component implant. Office Taiwan 12F, No. 80, Sec. 1, Chenggong Rd, Yonghe Dist., New Taipei City 23452, Taiwan Tel: +886 2 2929-4567 Fax: +886 2 2922-4567 USA UOC USA Inc. 20 Fairbanks, Suite 173 Irvine, CA 92618 Tel: +1 949-328-3366 Fax: +1 949-328-3367 EU Representative mdi Europa GmbH Langenhagener Strasse 71, 30855 Langenhagen, Germany Tel: +49-511-3908 9530 Fax: +49-511-3908 9539 China United Medical Instrument Co. Ltd. 7F, No.1405, GongheXin Road, Shanghai, China Tel: +86 21 3661-8055 Fax: +86 21 6628-3031 www.uoc.com.tw All Rights Reserved, 2014 United Orthopedic Corp. 01CC-S-01-01